Small Particle Reagent Technique of Fingerprint Development

Rituja R. Gharote
Masters of Science in Forensic Science
Sem III, Fingerprints
Unit 1: Powder Methods
Submitted to: Miss Hansi Bansal Ma'am

Sr. No. CONTENTS
1 Introduction of Small Particle Reagent (SPR)
2 Surfaces on which SPR can be used
3 Development of prints using SPR
4 Lifting and Photographing the prints developed by SPR
5 Types of SPR
6 Advantages and Disadvantages of SPR
7 Comparison of SPR with other Techniques
8 References

1.1) Small Particle Reagent:
● The method is based on the adherence of fine particles of treating
solution to the oily or fatty components of latent fingermark
residues.
● It interacts with the water insoluble sebaceous components of latent
fingermark residues.
● Conventionally, SPR consists of a suspension of fine molybdenum
disulfide particles in an aqueous medium containing detergent
solution (as surfactant).
● These particles adhere to fatty components of latent fingermark
residues and form a gray deposit.
● This method is also considered as wet powdering method.

1.2 ) The reagent used for development of prints using SPR:
• Surfactant and suspension material are the main
components of conventional SPR composition.
• Surfactant is a surface active agent and a synthetic
detergent.
• It reduces the surface tension of water, enhances the
moisture on surface and uniformly distributes the
suspension material of moist surface.
• Suspension material adheres to fatty components of residue
and provides color to them.
• The use of tergitol-7 detergent in combination with choline
chloride in molybdenum disulfide is preffered.

1.3) Preparation of working solution:
• In order to prepare SPR composition, dissolve the suspension
material in distilled water and add 3 drops of surfactant to it and
shake the solution well to ensure that suspension material has
gone into solution.
• Pre-treatment of surface with volatile bases such as
ethanolamine or triethylamine was recommended before
development of latent fingermarks on acidified non-porous
substrates with SPR.
• Post-Treatment: The wiping of SPR treated non-porous
substrates with paper towel was recommended in order to improve
the effectiveness of SPR process in significant manner.

2) Surfaces on which SPR can be used:
1. SPR is useful on wet surfaces (where drying is not possible).
2. Also on surfaces covered with a residue, like salt (close to sea
shores) or dirt/grease.
3. It can also be applied on waxed materials, plastics like
polyethylene bags as well as polystyrene (packaging material).
4. It is also preferable for development of prints on the sticky side of
tape.
5. It can also be used on wood, metal, glass and vinyl surfaces.

3) Process of Development using SPR:
1. Spray Application:
• In this spray process, the area where fingerprints are
suspected is sprayed with working solution, using a spray
unit.
• The nozzle of the spray unit is adjusted to give a cone-
shaped jet.
• Shake the spray unit before and between sprays.
• The powder in the suspension will settle in a few minutes.
• Therefore, the solution has to be agitated frequently to
keep the powder in suspension,

2. Dish development
• This method uses a container/dish with working solution in which
the article, on which fingerprints are suspected, is submerged.
• The working solution for dish development is less concentrated
than the working solution for spray application.
• Submerging the article after the solution is thoroughly stirred and
leave in the solution for 30 seconds and then removed.
• Do not agitate the solution while in the container.
• Many articles will have to be immersed twice, once for each
• side.

4) Lifting and Photographing:
• Before lifting, the prints should be allowed to dry.
• The molybdene disulfide powder from black SPR moves easily, so
if the air stream is too powerful false ridges can be created.
• The ease with which the powder flows, makes it necessary to be
extra careful in lifting. Prints are easily damaged.
• Photographing before lifting is recommended in important cases or
if lifting is done from difficult surfaces.
• Prints can be lifted, once dry, with black Gellifters.

(1 )
SPR
White
SPR
Black
SPR
UV
(2 ) (3 )
5) Types Of Small Particle Reagent:

1) SPR White:
• SPR White is a suspension of white powder in water
with a detergent.
• It contains titanium dioxide.
• It provides better contrast on dark surfaces like black
electric tapes both adhesive and non-adhesive sides.
• Background staining is more pronounced with white
SPR.
• Rinsing with water after applying white SPR works
best.

Close up of a
print developed
by SPR white.
Image Source: https://www.bvda.com/en/small-particle-reagent

2) SPR Black:
1. SPR Black is a suspension of molybdenedisulfide powder in
water with a detergent.
2. Use of xerox powder, lead oxide, cobalt oxide and graphite in
place of molybdenum disulfide particles as an alternative.
3. The powder particles adhere to a fingerprint as does a fingerprint
powder.
4. The gray, shiny prints that are developed with SPR can be lifted
(after drying) with Gel-lifters, Instant Lifters or tape.
5. The SPR method has the advantage that it can be used
on wet and/or dirty/greasy surfaces.

SPR black
developed
prints on
White Surface

3) SPR UV:
1. SPR UV is a suspension of light coloured UV fluorescent
pigment in water with a detergent.
2. It is used in the same way as the black and white version.
3. A light source emitting long wave UV light (365 nm) is needed to
view the developed marks in fluorescence.
4. SPR UV may provide better contrasting marks on multi coloured
surfaces.

SPR Uv
developed
prints on blue
Metal Surface

6.1) Advantages of SPR:
1) SPR technique is a convenient, cost-effective and efficient method
to develop latent fingermarks on wide range of wet, non-porous
surfaces.
2)The present technique is simple and even an amateurish hand can
operate it without any requirement of specialized equipment.
3) Contents of SPR doesn't affect the wet surfaces (e.g, bloodied
surfaces). The samples are found non-contaminated while performing
STR Typing for DNA Profiling.

1) SPR cannot be used on porous surfaces like paper or
cardboard.
2) SPR is very messy and can be difficult to remove from porous
surfaces, care should be taken to avoid property damage.
3) Concentration of reagents should be optimized as higher
concentration of surfactant develops weaker prints.
4) Fresh fingermarks responded better than aged fingermarks to
SPR processing.
5) The working solution is for one time use, one cannot store it.
6) It is highly sensitive amd harmful to an user and
environment.
6.2) Disadvantages of SPR:

7) Comparison of SPR with Other Techniques:
1) Powder suspensions will develop more clear prints than SPR.
2) SPR is more effective than cyanoacrylate fuming on water soaked
firearms but results are converse in case of dry surfaces.
3)White SPR method is more effective than Swedish soot mixture
powder for developing aged latent prints on wet surfaces.
4) CA fuming method is more effective than SPR in developing
aged (upto 168 h) latent fingerprints on glass and metal surfaces
immersed in stagnant water.
5) SPR is preffered over Vaccum-Metal Deposition.

8) REFERENCES:-
1) BVDA - Small particle reagent. Bvda.com. (2020). Retrieved 8 December 2020,
from https://www.bvda.com/en/small-particle-reagent.
2) Bvda.com. (2020). Retrieved 8 December 2020, from
https://www.bvda.com/images/content/downloads/SPR_instructions_for_use_EN.p
df.
3) Sodhi, G., & Kaur, J. (2012). A novel fluorescent small particle reagent for
detecting latent fingerprints on wet non-porous items. Egyptian Journal Of Forensic
Science, 2, 45-47. Retrieved 8 December 2020, from
https://www.researchgate.net/publication/257737214_A_novel_fluorescent_small_p
article_reagent_for_detecting_latent_fingerprints_on_wet_non-porous_items.

4) Jasuja, O., Toofany, M., Singh, G., & Sodhi, G. (2009).
Dynamics of latent fingerprints: The effect of physical factors on
quality of ninhydrin developed prints — A preliminary study.
Science And Justice, 8-11. Retrieved 8 December 2020, from
https://www.researchgate.net/publication/23421613_Small_particle_
reagents_Development_of_fluorescent_variants.
5) Ncids.com. (2020). Retrieved 8 December 2020, from
http://www.ncids.com/forensic/labs/Latent/Technical/SPR.pdf.

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Small Particle Reagent Technique of Fingerprint Development

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